How to Build Your Own Reactivity System

A couple of months ago, I attended an in-person meetup at Frontend Masters called Vue.js Advanced Features from the Ground Up. It was really awesome because we got to learn about Vue.js from its creator, Evan You. Instead of just teaching us how to use Vue, he showed us how to actually implement a few parts of it. Reactivity was the part that interested me the most, so, after the class, I dug into Vue’s source code to learn more about exactly how its reactivity system works. In this guide, I’ll explain how Vue’s reactivity system is implemented, and show how you to make your own working reactivity system.

The Problem of Reactivity

What is reactivity? I really like how Evan explained it in his talk, so I’ll use his examples. Say you have a variable a.

let a = 3

Now, let’s say you have another variable b, such that b = a * 3 .

let b = a * 3console.log(b) // 9

That’s working just fine. But what happens if you need to change a?

a = 5console.log(b) // 9

Even though a changed, bstayed the same. Why? Because you never changed b. If you want to make sure bis still a * 3, you’d have to do it like this:

a = 5b = a * 3console.log(b) // 15

Now, this is working, but it would be annoying to have to type out b = a * 3 every time a changes. We could solve this problem by wrapping the update to b in a function

let b;function onUpdate() { b = a * 3}

let a = 3onUpdate()console.log(b) // 9

a = 5onUpdate()console.log(b) // 15

But, this still isn’t a very nice way of doing things. While it’s not too problematic in this example, imagine if we had 10 different variables, that all had a potentially complex relation to another variable or variables. We’d need a separate onUpdate()method for each variable. Instead of this awkward and imperative API, it’d be nice to have a simpler, more declarative API that just does what we want it to do. Evan compared it to a spreadsheet, where we can update one cell and know that any cell that depends on the one we updated will automatically update itself.

Solutions

The good thing is that people have already come up with a number of solutions to this reactivity problem. In fact, each of the three major web development frameworks provides a solution to reactivity:

React’s State Management: Create a function setState(), and use that whenever we need to update a. Then, inside setState(), call a render function that updates the view to display the proper value of b.

Angular’s Dirty Checking: Create a function detectChanges(), that runs through every property it’s tracking and checks if it’s changed since the last time it was checked. If it finds an updated property (e.g. a), then it updates every property that uses the updated property (e.g. b). Then, run the detectChanges()function every few milliseconds and whenever it’s logical.

Vue’s reactivity system: Add ES5 getters and setters to each tracked property. Whenever a tracked property is accessed, mark the function that accessed the property as a “subscriber”. Whenever the property is changed, notify each subscriber of the change.

We’re going to implement Vue’s reactivity system in pure JavaScript. Before we get into the code, let’s go into some more details about exactly what we’re building.

What We’re Building

We’re going to create a class, called Watcher, that takes in two properties: a value getter and a callback. The value getter can be any function that has a return value. Example:

let a = 3const getter = () => a * 3

The getter will probably have dependencies, or variables it depends on to get its value. In the example above, a is the only dependency of the getter function. Getter functions can have multiple dependencies, though. For example, () => x * y has both xand yas dependencies.

Whenever a dependency of the getter function changes, we’ll automatically run the callback function, passing in the current value and the previous value. This callback can do anything, from just logging the value to displaying the value in a div.

Finally, we’ll create a defineReactive()function, that adds change detection to a property on an object. We’ll also create a walk() function that adds change detection to all properties on an object. This will allow properties of the object to be used as dependencies. We will implement this change detection the same way Vue does: by defining ES5 getters and setters. While this approach does have some limitations (described in the docs), it’s an extremely efficient and simple way of getting reactivity, since the JavaScript engine is ultimately providing the change detection.

Footnote: The unreleased Vue 3 will use ES6 Proxies instead of getters and setters, but I believe the rest of Vue’s reactivity system won’t change that much.

When we’re finished, we’ll have a general-purpose reactivity API. Here’s an example of its usage:

Deps

The first step is to implement the Dep class. Dep, short for dependency, is a wrapper around a value. Our implementation will be directly based on Vue’s Dep class. Each Dep instance maintains a list of subscribers, or subs, that all want to know whenever the dep’s value changes. These subscribers are instances of the Watcher class, which we will implement in the next section. Each Dep instance is responsible for calling each subscriber’s update()method whenever the dep’s value changes.

Even though Dep instances are responsible for alerting subscribers of changes to a value, each Dep instance doesn’t actually know what value it’s watching. So, it each Dep instance has a notify()method, which lets it know when its value changes. We’ll talk more about who calls notify() later, but for now just assume it gets called whenever the watched value changes. Here’s a working Dep implementation:

What is Dep.target, and when does it get a value? Dep.targetis a Watcher instance that lets the Dep instance knowwho’s using its value. This is necessary because the Dep instance needs to register itself as a dependency of the target watcher. There are two functions, pushTarget()and popTarget(), that manage the currentDep.target. Here’s what these look like:

We’ll discuss these methods more in the next section.

Watchers

A watcher parses an expression, collects dependencies, and fires callbacks when the expression value changes. This is used for both the $watch() api and directives.

The Watcher class takes in a getterfunction and a callback function, and stores an array of dependencies of the value computed by the getter function. It tracks the values of the dependencies, and runs the callback function whenever any of these dependencies change. Here’s an example:

let a = 5, b = 4

const getter = () => a + bconst callback = (val) => console.log(val)

const watcher = new Watcher(getter, callback)

a = 6 // 10 is logged to the console

In Vue’s code, the Watcher class has several methods, but, for our purposes, we just need to implement three of them:

get(). This method calls the getter function supplied in the constructor to figure out what the initial value is. Before it calls the getter, it sets itself as the current Dep target watcher, using thepushTarget()method. This makes it so all values used in the getter function will add the Watcher instance as a subscriber. This is important because the Watcher instance needs to be linked to its dependencies in some way so it can be notified whenever the value of one of its dependencies changes.

addDep(dep).This method adds itself as a subscriber to the given dependency. This method is called by the Dep#depend() method, which we’ll discuss in more detail in the next section.

update(). This method calls the callback function supplied in the constructor with the old value and new value as arguments. It gets used when the Dep#notify() method calls update on each of its subscribers after its value changes.

Here’s the code for our Watcher class:

defineReactive()

According to the source code, defineReactive()“defines a reactive property on an Object”. This is done by adding getters and setters to a given property of a given object. Each property has a Dep instance associated with it. Whenever a reactive object’s property is accessed, the getter calls Dep#depend(), which adds the current target Watcher as a subscriber to the property’s Dep instance. Whenever the property is changed, the setter calls Dep#notify() which calls the update() method of each of the subscribers to the property’s Dep. Here’s defineReactive(), based on the source code:

How it all works together

Now we’ve written each part of our reactivity system, but how does it all work? Each part of the system is so interconnected with all the other parts that it can be difficult to understand. Let’s walk step by step through what happens in an example usage of our Watcher class.

First, it calls the pushTarget()function, which assigns this(thefoodsWatcher) to Dep.target.Then, it calls this.getter(), the first function passed to the Watcher constructor. The getter for the foodsWatcherjust returns the value of foods.apple. Since foods.apple was made reactive by defineReactive(), it will also run the reactive getter:

// adds Dep.target as a subscriber to the property's dep instancedep.depend()

return value

This registers foodsWatcher as a subscriber to the Dep instance associated with foods.apple . So there’s now a connection between the foodsWatcher and foods.apple.

How is this helpful? Let’s say we change foods.apple .

foods.apple = 6

Doing this will call the setter on foods.apple. The setter runs dep.notify(), whichcalls update()on each of the dep’s subscribers. Since the foodsWatcher is a subscriber to the Dep instance, the dep.notify()call will trigger the update method on foodsWatcher. What does Watcher#update() do?

It updates its knowledge of the current value, and then calls the callback supplied in the constructor. Remember that the callback we specified was

() => console.log('change')

So, when we change foods.apple, our reactivity system will let us know! The cool thing is that this happened without any dirty checking every millisecond. It happened without us having to explicitly set the state. It just worked, without us having to think about it at all, just like a spreadsheet. That’s what makes Vue’s reactivity system so incredible.

If you want to see all the code for our reactivity system in one place, I made a plunker with a really cool demo. Thanks for reading!